JP3630943B2 - Information processing apparatus, print control method, print control system, and storage medium storing print control program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information processing apparatus, a print control method, a print control system, and a storage medium, and more particularly to a method for automatically determining a color processing mode at the time of printing in an information processing apparatus such as a personal computer.
[0002]
[Prior art]
In printing with a conventional output control device, for example, a printer, even when the printer has a plurality of color processing modes, for example, a full color printing mode and a monochrome printing mode, the color processing mode used at the time of printing is selected. Printing is executed only by using the mode selected by the user without considering the print throughput in the printer, the color processing mode suitable for the print data, and the like.
[0003]
In addition, even when only one page contains full color data and the other pages contain only black and white data, the full color printing mode has to be selected, and the print throughput has been reduced.
[0004]
[Problems to be solved by the invention]
As described above, in printing with a printer which is a conventional output control device, color processing used at the time of printing even when the printer has a plurality of color processing modes, for example, a full color printing mode and a monochrome printing mode. There is a problem that the mode is selected only by using the mode selected by the user, and printing is executed without considering the print throughput in the printer, the color processing mode suitable for the print data, and the like.
[0005]
Further, when only one page contains full color data and the other pages are only black and white data, if the full color print mode is selected, there is a problem that the print throughput is lowered.
[0006]
In addition, when determining the color processing mode, there is a problem that the release from the printing process of the application at the time of printing is slow.
[0007]
Also, there is a problem that the first printout is slow when using intermediate data in order to expedite the release of the application.
[0008]
[Means for Solving the Problems]
The present invention has been made in view of the above problems, and a first invention of the present application is a graphic engine that is a drawing output destination of a print command generated when an application performs printing, and printing from the graphic engine. A printer driver that receives commands and generates print data Print data output for printing with a printing device that has a duplex printing function and can form images of multiple pages on a transfer body An information processing apparatus that generates intermediate data based on a print command received via the graphic engine, and temporarily stores the generated intermediate data; Printing processing in the printing device; Based on the intermediate data generated by the intermediate data generation means, print data Analyzing the color attributes of each page Color processing mode determining means for determining a color processing mode, and printing including an indication of the color processing mode of the print data determined by the color processing mode determining means based on the intermediate data generated by the intermediate data generating means Print command generation means for generating a command and outputting the generated print command to the graphic engine; and when the print command received from the graphic engine is a drawing output from the application, the print command is the intermediate A print command distribution unit that transfers the print command to the printer driver when the print command received from the graphic engine is a drawing output from the print command generation unit, and the print command distribution unit; Receives the print command distributed by the printer driver, And a print data generating unit that generates print data to be transmitted from the print command to the printer And the color processing mode determination means rearranges the color attributes of the analyzed pages in the printing order when the printing process in the printing apparatus performs double-sided printing, and is formed on the transfer body of the printing apparatus. When the color attributes of the images of the plurality of pages are different, the color processing mode of the plurality of pages is set to the color mode, and when the color attribute of the images of the plurality of pages is monochrome, the color processing mode of the plurality of pages is determined to be the monochrome mode. Is.
The color processing mode determination unit determines a color processing mode in units of physical pages of print data, and the print data generation unit specifies a color processing mode determined in the color processing mode in units of physical pages. Generate data.
Further, the image processing apparatus further includes a page composition unit that reduces a print command of a plurality of pages generated by an application and lays out the page, and the color processing mode determination unit includes color information of each page laid out on the plurality of pages. The color processing mode for correctly reproducing the color of the page synthesized by the page synthesizing unit is determined.
The color processing mode determination unit determines the color processing mode when intermediate data of the number of pages of print data in the minimum unit that can switch the color processing mode in the printing apparatus is generated.
Further, if the color processing mode is determined in units of physical pages of the print data by the color processing mode determination unit, the print data generation unit may determine the determined color processing mode before determining the color processing mode of all pages. A print command that specifies the color processing mode of the print data in units of physical pages is generated, and transmission of the print data generated by the print data generation unit to the printing apparatus is started.
Further, the problem is solved by a system having the above configuration, a method thereof, or a storage medium storing the control program.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram illustrating the configuration of a printer color processing mode automatic control system according to an embodiment of the present invention. As shown in FIG. 1, the information processing apparatus 1 and the printer 2 are connected via a Centro I / F connection 3. Here, for the sake of simplicity, the case where the information processing apparatus and the printer are connected on a one-to-one basis has been considered. The present invention can be applied to any system that is connected to the system through a network such as a LAN or a WAN and processing is performed, and the scope of claims of the present invention includes this.
[0016]
The internal configuration of each device is as shown in FIG. The information processing apparatus 1 includes a CPU 201 for executing control of each unit and a program, a RAM 202 having a work area for executing an OS, an application program, and the like, and an HD drive for storing a printer color processing mode automatic control program in this embodiment. 203, a display 204 for displaying data and results, a ROM 205 that stores various programs such as a program for performing document processing, fonts and various data (for example, template data), a printer driver, and the present embodiment. FD 206 storing a color processing mode automatic control program to be executed, FD drive 207 for reading the program and data stored in FD 206 into RAM 202 and HD drive 203, pointing device not shown for inputting, and keyboard 2 8 and Centro I / F209 is made from the (host).
[0017]
Note that the CPU 201 executes, for example, outline font development (rasterization) processing on the display information RAM set on the RAM 202 to enable WYSIWYG on the display 204 such as a CRT. The CPU 201 opens various windows registered based on commands instructed by a mouse cursor (not shown) on the display 204, and executes various data processing. When executing printing, the user opens a window related to print settings, and can set the print processing method for the printer driver, including printer settings and print mode selection.
[0018]
Further, the printer 2 receives print data from the information processing apparatus 1 via the Centro I / F connection 3, and the ROM 211 and ROM 211 in which control programs such as a mode switching control program are stored. Based on the stored control program and the like, the CPU 212 and CPU 212 collectively control access to each device and output an image signal as output information to a printer engine (not shown) via the engine I / F 215. Main memory, a RAM 213 functioning as a work area, a coprocessor 214 that performs simple calculations, and an engine I / F 215 that is not shown in the drawing and that actually performs paper conveyance and printing. The printer 2 in this embodiment has a full color mode and a black and white mode as color processing modes, and the color processing mode can be switched for each page of print data by control information input from the host as will be described later. And The Centro I / F connection 3 is replaced with a network, and the Centro I / Fs 209 and 210 can satisfy the present embodiment even if they are network I / Fs or network boards.
[0019]
The CPU 212 can perform communication processing with an information processing apparatus that is a host computer via a Centro I / F 210 that is an input unit, and can notify the information processing apparatus 1 of information in the printer. The RAM 213 is configured such that the memory capacity can be expanded by an optional RAM connected to an expansion port (not shown). The RAM 213 is used as an output information expansion area, environment data storage area, NVRAM, and the like.
[0020]
In the system configured as described above, FIG. 3 shows a memory map in a state in which the printing related module including the printer color processing mode automatic control program in this embodiment is loaded into the RAM 202 on the information processing apparatus 1 and becomes executable. Yes.
[0021]
The memory map 31 includes an area 32 where an application program exists, an empty memory 33, a related data section 34, a print related module 35 including a printer color processing mode automatic control program, an OS 36 and a BIOS 37.
[0022]
4, 5, 7, 22, and 23, the color processing mode automatic control program including each command represented by each step is executed by the printer color processing mode for the FD 206 or the HD drive 203 on the information processing apparatus 1. It is stored as a print-related module including an automatic control program, and functions as a means that is achieved by the CPU 201 executing under the management of the OS 36.
[0023]
In this embodiment, the information processing apparatus 1 operates when the CPU 201 executes a printing-related module and application including the BIOS, OS, and printer color processing mode automatic control program of the present invention. The BIOS is written in the ROM 205 and the OS is written in the HD drive 203. When the information processing apparatus 1 is powered on, the OS is read from the HD drive 203 into the RAM 202 by the IPL (Initial Program Loading) function in the BIOS program, and the operation of the OS is started. Actually, the printing-related module including the printer color processing mode automatic control program can be operated because the printing process is executed on the information processing apparatus 1 by the application operating under the OS management on the information processing apparatus 1. The FD 206 storing the printing related module is set in the FD drive 207 or the printing related module is stored in the HD drive 203 under the control of the OS and the BIOS. The print related module is read from the FD 206 or the HD drive 203 and loaded into the RAM 202. As described above, FIG. 3 shows a memory map in a state in which the printing-related module including the printer color processing mode automatic control program in this embodiment is loaded into the RAM 202 on the information processing apparatus 1 and can be executed.
[0024]
The printer color processing mode automatic control program described in the present embodiment is stored in the HD drive 203 or ROM 205 of the information processing apparatus 1 or program code from a storage medium such as a floppy disk 206 via the FD drive 207. May be installed to realize the functions of the present invention.
[0025]
Further, the storage medium for storing the program is not limited to a floppy disk, but may be a CD-ROM, CD-R, magneto-optical disk, optical disk, magnetic tape, nonvolatile memory card, or the like.
[0026]
In this case, the program code itself read from the storage medium realizes the novel function of the present invention, so that the storage medium storing the program code constitutes the present invention.
[0027]
FIG. 19 shows a configuration diagram of a typical print process in an information processing apparatus such as a host computer to which a printing apparatus such as a printer is directly connected or connected via a network.
[0028]
The application 1901, the graphic engine 1902, the printer driver 1903, and the system spooler 1904 exist as files stored in the HD drive 203, which is an external memory, and are loaded into the RAM 202 by the OS and modules that use the module when executed. Program module to be executed. Further, the application 1901 and the printer driver 1903 can be added to the HD of the external memory via the HD drive 203 and FD 206 of the external memory, a CD-ROM (not shown), or a network (not shown).
[0029]
The application 1901 stored in the external memory is loaded into the RAM 202 and executed. When printing is performed from the application 1901 to the printer 2, the graphic engine that is similarly loaded into the RAM 202 and can be executed. 1902 is used to output (draw).
[0030]
The graphic engine 1902 converts it into a printer control command using a printer driver 1903 prepared for each printing apparatus. The converted printer control command is output to the printer 2 via the interface via the system spooler 1904 loaded in the RAM 202 by the OS.
[0031]
In addition to the printing system comprising the printer and information processing apparatus shown in FIG. 19, the printing system of this embodiment has a configuration in which print data from an application is temporarily spooled with intermediate code data as shown in FIG.
[0032]
FIG. 20 is an extension of the system shown in FIG. 19. When a print command is sent from the graphic engine 1902 to the printer driver 1903, a spool file 2003 consisting of an intermediate code is generated once. In the system shown in FIG. 19, the application 1901 is released from the printing process when the printer driver 1903 has converted all print commands from the graphic engine 1902 into printer control commands. On the other hand, in the system shown in FIG. 20, the spooler 2002 converts all print commands into intermediate code data and outputs them to the spool file 2003. The latter usually requires less time.
[0033]
In the system shown in FIG. 20, the contents of the spool file 2003 can be processed. This makes it possible to realize functions that the application does not have, such as enlargement / reduction of print data from the application or printing by reducing a plurality of pages into one page.
[0034]
For these purposes, the system of FIG. 19 is extended to spool with intermediate code data as shown in FIG. In order to process the print data, settings are normally made from a window provided by the printer driver 1903, and the printer driver 1903 stores the setting contents on the RAM 202 or the HD 203.
[0035]
Details of FIG. 20 will be described below. As shown in the figure, in this expanded processing method, the dispatcher 2001 receives a print command from the graphic engine 1902. If the print command received by the dispatcher 2001 from the graphic engine 1902 is a print command issued from the application 1901 to the graphic engine 1902, the dispatcher 2001 loads the spooler 2002 stored in the HD 203, which is an external memory, into the RAM 202. The print command is sent to the spooler 2002 instead of the printer driver 1903.
[0036]
The spooler 2002 converts the received print command into an intermediate code and outputs it to the spool file 2003. Further, the spooler 2003 acquires from the printer driver 1903 the enclosing setting related to the print data set for the printer driver 1903 and stores it in the spool file 2003. The spool file 2003 is generated as a file on the HD 203 as an external memory, but may be generated on the RAM 202. Further, the spooler 2003 loads the spool file manager 2004 stored in the HD 203 which is an external memory into the RAM 202 and notifies the spool file manager 2004 of the generation status of the spool file 2003. Thereafter, the spool file manager 2004 determines whether printing can be performed in accordance with the contents of the processing settings relating to the print data stored in the spool file 2003.
[0037]
When the spool file manager 2004 determines that printing can be performed using the graphic engine 1902, the despooler 2005 stored in the HD 204 is loaded into the RAM 202 and the intermediate data described in the spool file 2003 is loaded to the despooler 2005. Instructs the code to be printed.
[0038]
The despooler 2005 processes the intermediate code included in the spool file 2003 in accordance with the contents of the processing setting included in the spool file 2003, and outputs it again via the graphic engine 1902.
[0039]
If the print command received by the dispatcher 2001 from the graphic engine 1902 is a print command issued from the despooler 2005 to the graphic engine 1902, the dispatcher 2001 sends the print command to the printer driver 1903 instead of the spooler 2002.
[0040]
The printer driver 1903 generates a printer control command and outputs it to the printer 2 via the system spooler 1904.
[0041]
FIG. 21 is a cross-sectional view of a color printer having a printing function, which is an example of the printer 2.
[0042]
This printer forms an electrostatic latent image by scanning a photosensitive drum 2102 with a polygon mirror 2101 using laser light deflected by image data for each color obtained based on print data input from the information processing apparatus 1. The electrostatic latent image is developed with toner to obtain a visible image, and this is transferred to the intermediate transfer body 2103 for all colors to form a color visible image. Further, this color visible image is transferred to the transfer material 2104, and the color visible image is fixed on the transfer material 2104. The image forming unit that performs the above control includes a drum unit having a photosensitive drum 2104, a primary charging unit having a contact charging roller, a cleaning unit, a developing unit, an intermediate transfer body 2103, a sheet feeding unit including a paper cassette and various rollers, and a transfer roller. The image forming apparatus includes a transfer portion and a fixing portion including
[0043]
The detailed description of each component is the same as the conventional one, and is omitted here.
[0044]
FIG. 4 is a flowchart showing an outline of the printer color processing mode automatic control program in this embodiment.
[0045]
First, the print data (for example, code data) received from the application at the time of printing is converted into an intermediate code by the CPU 201 to generate an intermediate code to be temporarily stored in the HD 203, and the color attribute of each print data requested to be printed by the application. The information is stored in the RAM 202, and the step (step 401) of storing the information in units of pages, the temporarily stored intermediate code, and the color processing mode information for each page generated in the above step and stored in the RAM 202 are stored. The process consists of a print data generation for generating print data to be transmitted to the printer 2 and a step (step 402) for designating the color processing mode of each page.
[0046]
In this embodiment, intermediate data is generated from the print data, and then the CPU 201 determines the color attribute of the print data. However, the present invention is not limited to this. However, in a conventional color printer having a plurality of color processing modes, the received data is different depending on the mode, so that the output data output on the information processing apparatus side needs to be changed according to the mode. For this reason, in this embodiment, the print data can be processed not only for expediting the release from the printing process of the application but also for editing functions that the application does not have or functions that the printer does not have. The intermediate data is generated.
[0047]
Further, the present embodiment can be executed without generating intermediate data. For example, it is also conceivable that the CPU 201 once analyzes the code data that is the print data, determines the color attribute of the print data, and then generates output data according to the color attribute. Thus, the reason why the CPU 201 determines the color attribute before generating the output data is that the output data generated by the color attribute determined as described above is different. In other words, if only black and white is sufficient, color information is not necessary, and it is only necessary to set a monochrome mode flag in the data. Further, when the color attribute is color, it is necessary to set a color flag in the data (it is not necessary to set a monochrome flag) and generate output data having color information. As described above, in order to realize the conventional printer, it is necessary to determine the color attribute before generating the output data.
[0048]
However, if the printer does not change the type of data handled in the monochrome mode and the color mode, after generating output data, the color attribute information may be added to the data and transferred to the printer.
[0049]
FIG. 5 is a flowchart showing detailed processing of the CPU 201 in the intermediate code generation and color attribute storage / page unit storage step (step 401) shown in FIG. In this embodiment, this processing is performed when the spool file 2002 is generated in the spooler 2002.
[0050]
First, in step 501, a print request from an application is received. In step 502, the CPU 201 determines whether the received print request is a job start request. If the CPU 201 determines in step 502 that the request is a job start request, the process advances to step 503 to identify the spool file 2003, which is an intermediate data temporary storage file for temporarily storing intermediate data, and this job. Is created in the HD drive 203 of the information processing apparatus 1, and the created spool file 2002 is opened.
[0051]
Subsequently, in step 504, the spool file manager 2004 is notified of the progress of the printing process and the job identifier for associating the spool file with the notification, and the color attribute information of the print data is saved for each page. The number of pages is initialized to the format shown in FIG. That is, the page counter n representing the page is set to 1. This indicates that the first page is being executed.
[0052]
In step 505, the n page index is created in the area of the related data 34 on the RAM 202. It is assumed that the nth page data is added to the last part of the table as the number of pages increases.
[0053]
On the other hand, if the CPU 201 determines in step 502 that the request is not a job start request, the process proceeds to step 506.
[0054]
Next, in step 506, the CPU 201 determines whether the received request is a job end request. If the CPU 201 determines that the request is not a job end request, the process advances to step 507 to determine whether or not the page breaks. If it is determined in step 507 that the CPU 201 is a page break, the process advances to step 508 to notify the spool file manager 2004 of the progress of the printing process and the color processing mode. Then, the CPU 201 increments the page number counter, creates the page index of the next page in the area of the related data 34 on the RAM 202, and sets black and white as the initial value of the color processing mode. Here, in the spool file manager 2004, the color processing mode for each logical page is stored in, for example, the format shown in FIG. 8, and is referred to when determining the color processing mode for each physical page in the spool file manager 2004 described below. Let
[0055]
If the CPU 201 determines in step 507 that the print request from the application is not a page break, the process proceeds to step 509, and the n page color processing mode of the n page index according to the color attribute information indicated in the print request. Update the information table. For example, when the color processing mode set for the first page before the update is monochrome, and the print request received from the application is full color image drawing, the full color image is drawn. The color processing mode for the first page is changed to full color. If the full color image is not drawn until the end of the page, the default value is the monochrome mode. In this embodiment, when there is a print request having a full color attribute in the same page, the color processing mode of the page is set to full color.
[0056]
Next, in step 510, conversion to an intermediate code is performed in order to store the print request in the spool file 2003. In step 511, the intermediate code is written to the intermediate data temporary storage file in the HD drive 203. Thereafter, the process returns to step 501 to accept a print request from the application again. The series of processing from step 501 to step 511 is continued until a job end request is received from the application. On the other hand, if the CPU 201 determines in step 506 that the print request from the application is a job end, all the print requests from the application are ended, and the process advances to step 512 to perform print processing to the spool file manager 2004. The spool file 2003 is closed, the next print data is generated, and the process proceeds to the color processing mode designation step.
[0057]
FIG. 6 shows the contents of the intermediate code data temporary storage file generated on the HD drive 203 by the intermediate code generation, color attribute storage / page unit storage step (step 401) of FIG. In FIG. 6, [Job start command], [Page break command] (FF), a character print command, and the like are described. These are used for easy understanding of print data in the file. In actuality, it is stored in binary format.
[0058]
FIG. 7 is a flowchart showing detailed processing of the CPU 201 in the print data generation and page color processing mode designation step (step 402) shown in FIG.
[0059]
In the step of generating print data and specifying the color processing mode, first, in step 701, the CPU 201 opens an intermediate code data temporary storage file in the HD drive 203. As described above, an example of the contents of the intermediate data temporary storage file is as shown in FIG. Next, the search for print data is actually started. First, in step 702, the CPU 201 reads out print data in units of print commands shown in FIG. The first print data read out from the print data shown in FIG. 6 is a [job start command]. Subsequently, the following print data is read up to the end of the file. In the process of reading the print data, in step 703, the CPU 201 determines whether it is the end of the file. If the CPU 201 determines that it is not the end of the file, the process proceeds to step 704 to determine whether it is a [job start command]. If the CPU 201 determines that it is a [job start command], the process advances to step 705 to refer to the color processing mode of the first page shown in FIG. 8, and then the CPU 201 outputs in the format shown in FIG. Data is created and output to the printer 2. In this embodiment, since the color processing mode for the first page is full color, the data output to the printer 2 is <ESC> [1 ”p. Further, a variable for holding page position information currently being processed. Is initialized on the RAM 202. In this way, it is easy for the printer to process by putting data specifying the color processing mode at the beginning of the output data.
[0060]
In step 704, if the CPU 201 determines that it is not “job start instruction”, the process proceeds to step 706. In step 706, the CPU 201 generates output data based on the data read from the intermediate data temporary storage file stored in the HD drive 203, and outputs the output data to the printer 2. In step 707, the CPU 201 determines whether the read print data is a page break. If it is determined in step 707 that the page is not a page break, the process returns to step 702 and the processing is continued.
[0061]
If the CPU 201 determines that the read data is a page break, the CPU 201 outputs output data indicating the page break to the printer 2, and the process proceeds to step 708. In step 708, the CPU 201 increments the page position information variable currently being processed created in the RAM 202 in step 705, thereby advancing the number of pages. In this way, the page position being read is always associated with the page position information.
[0062]
In step 709, the CPU 201 compares whether the color processing mode on the page before incrementing the page position information variable is different from the color processing mode on the page after increment. If the CPU 201 determines that the respective color processing modes are different, the process proceeds to step 710 and the color processing mode is set in the format shown in FIG. 9 according to the color processing mode in the page after increment. Output data is generated by adding the designated data, the output data created in this step is output to the printer 2, and the process returns to step 702 to shift the process. For example, in this embodiment, the print data is a total of 5 pages and the color processing mode is full color as shown in FIG. 8 as shown in FIG. 2 is output twice in total, that is, the designation of the first full color mode and the designation of the monochrome mode immediately after receiving the page break data of the second page. In the comparison in step 709, if the CPU 201 determines that the respective color processing modes are the same, it is not necessary to specify the color processing mode, so that the process returns to step 702 and the processing is continued.
[0063]
On the other hand, if the CPU 201 determines in step 703 that the job end command or the like has been identified and the end of file has been reached, output data representing the end of the job is output to the printer 2, and the process proceeds to step 711. In step 711, after the intermediate data temporary storage file in the HD drive 203 is closed, the CPU 201 deletes the intermediate data temporary storage file and deletes all information such as the page position information variable generated on the RAM 202. The process is terminated. In this way, after the output data is transferred to the printer 2, no intermediate data or the like remains in the information processing apparatus 1.
[0064]
As described above, FIG. 8 is a diagram for each page generated in the related data area 34 on the RAM 202 by the step (step 401) of generating the intermediate code and storing the color attribute / storing in units of pages in FIG. An example of color processing mode information of print data is shown. FIG. 9 shows an example of a color processing mode designation command.
[0065]
In this embodiment, the medium for storing the print-related module including the printer color processing mode automatic control program is the FD or HD drive 203, but a CD-ROM, IC memory card, or the like may be used. Good. Further, the printer color processing mode automatic control program alone or a printing-related module including the printer color processing mode automatic control program is stored in the ROM 205, and is configured so as to be a part of the memory map. It is also possible to execute with.
[0066]
As described above, in this embodiment, by determining the color processing mode of print data for each page in the information processing apparatus, the printer can change the color processing mode for each page. It is possible to increase the printing throughput.
[0067]
In the first embodiment, the print-related module that operates on the information processing apparatus 1 or the print module that operates on the printer 2 reduces a plurality of print pages (logical pages) and lays out one page (physical page). Printing using the n-page printing function when the printing process is executed by the application that operates under the OS management on the information processing apparatus 1. This example will describe the processing in the case where is specified.
[0068]
First, a description will be given with reference to FIG. For example, a case will be described in which a print request for data for 8 pages is received from the application by printing 4 pages.
[0069]
Assume that after the processing of step 512 in FIG. 5 which is the color processing mode automatic control program in this embodiment, color attribute information of 8 pages of logical pages is stored as shown in the left table of FIG. Here, the process proceeds to step 1301 in FIG. In step 1301, physical page color processing mode information is generated on the RAM 202 from the color attribute information stored in the related data 34 of the RAM 202 as shown in the table on the right side of FIG. 10. In this embodiment, there are four logical pages and one physical page. Therefore, in the example shown in FIG. 10, since the color processing mode of logical page data 1 and 2 is full color, physical page 1 The color processing mode is determined to be full color, and since the logical page data 5 to 8 are black and white, the physical page 2 is determined to be black and white.
[0070]
Subsequently, the print data generation step shown in FIG. 7 is performed. Here, description will be made with reference to FIGS. The processing of the print data generation step is basically the same as in the above embodiment. There are three processes that change in the page reduction mode. As shown in FIGS. 14 and 15, the first process is to proceed to step 1401 instead of step 705. In step 1401, the color processing mode of the first page shown in FIG. 8 is referred to, and then the CPU 201 creates output data in the format shown in FIG. 9 and outputs it to the printer 2. Further, the n-page print setting value, the physical page counter, and the logical page counter currently being processed are initialized.
[0071]
In the second place, the processing in steps 1501 to 1503 is performed instead of the processing in step 709. In step 1501, the CPU 201 determines whether the print data currently being created is the first logical page. If the CPU 201 determines that the print data currently being created is the first page of the logical page, it means that it has become a new physical page, so the process moves to step 1502. If the CPU 201 determines that it is not the first page of the logical page, it means that the print data of the previous physical page is still being created, and the process returns to step 702.
[0072]
In step 1502, output data indicating a page break is generated and output to the printer 2, the physical page counter is incremented to correspond to the actually printed page, and the process proceeds to step 1503. In step 1503, the CPU 201 compares the color processing modes stored in the RAM 202 of the physical page for which print data is currently being created and the physical page one page before. If the CPU 201 determines that the color processing modes are the same, the process returns to step 702 because there is no need to change the color processing mode. If the CPU 201 determines that the color processing modes are different, the process proceeds to step 710 in order to output a designation command to return to the color processing mode. The subsequent processing is the same as in FIG.
[0073]
Even if the CPU 201 determines that the third page is a page break command in step 707 of FIG. 7, generation of output data indicating that the page is a page break and output to the printer 2 are not performed in this step. This determination is made in step 1502 described above.
[0074]
As described above, in this embodiment, by adding the above processing to the above embodiment, the output of the color processing mode designation command in units of logical pages is suppressed, and the output in physical unit pages is performed. It is possible to avoid contradiction in which a plurality of color processing modes are specified on the same physical page, and to perform n-page printing in an optimum color processing mode.
[0075]
In addition, when the printer 2 has a double-sided printing function, a plurality of recording materials can be held in the form of a transfer drum, and in order to improve the performance at the time of double-sided printing, single-sided printing inside the printer and backside printing Therefore, in the case of having a mechanism for temporarily pooling a plurality of recording materials, the duplex printing function is used when printing processing is executed on the information processing apparatus 1 by an application operating under OS management. This embodiment will explain the processing in the case where the specified printing is designated.
[0076]
FIG. 12 is a diagram illustrating the difference in page order between single-sided printing and double-sided printing.
[0077]
The upper page order in FIG. 12 is for single-sided printing, and for a face-down printer, the numerical order is 1, 2 to 4, as shown in the figure. When the color processing mode is determined as shown in the figure, the color processing mode must be designated three times as color for the first page, black and white for the second page, and color for the fourth page. Next, the page order at the bottom of the figure is for duplex printing. Pages 1 and 2 represent the front and back of the first page, and pages 3 and 4 represent the front and back of the second page. In this embodiment, the printer is face-down, and a plurality of recording materials can be attached to the transfer drum. At this time, considering the printing throughput, printing is started from the back side of the second page, the back side of the first page is printed, temporarily held in the printer duplex unit, and then from above the recording material held in the printer duplex unit. In order, they are attached to the transfer drum with the front and back reversed, recorded, and output. For this reason, this order is taken in order for the last output order to put out the first page first. When data is transmitted from the information processing apparatus 1 to the printer 2 in the same color processing mode as in the upper part of the figure, the order is as shown in the lower part of FIG. The timing for switching the processing mode must specify color on the first page, monochrome on the second page, color on the third page, and monochrome on the fourth page.
[0078]
FIG. 16 shows the state of paper conveyance inside the printer 2 when double-sided printing is executed. Here, two-sided printing on two sheets will be described.
[0079]
When continuous 4-page data is received inside the printer, in step 1 in the table, first, the 4th page, which is the back side of the 2nd page, is printed and pooled in the printer duplex unit. Step 2 in the table represents a state in which the second page, which is the back side of the first page, is subsequently printed and pooled in the duplex unit as in the fourth page. In Step 3 in the table, the paper on which the second page, which is the back surface of the first page, has already been printed (sheet 1) is fed from the duplex unit, and the first surface, which is the front surface of the first page. The page is printed and the sheet is discharged face down on the sheet discharge tray. Next, in step 4 in the table, the paper on which the fourth page, which is the back surface of the second page, is printed, the third page, which is the front surface of the second page, is printed, This represents a state in which paper is discharged face down. Here, for simplicity, in step 3 in the table, there is a second page on which the fourth page is printed on the printer duplex unit, and there is a first page on which both sides are printed on the paper discharge tray. However, in the present embodiment, since the transfer drum can be pasted at the same time as an example, the second page is output after the first page. And never exist in the output tray.
[0080]
The above process will be described with reference to the flowchart of FIG.
[0081]
When a print request for data for four pages is received from the application, the color processing mode automatic control program in the present embodiment has already shown in the left side table of FIG. First, in step 1801, the printer CPU 212 confirms the total number of pages and sorts the table on the left side of FIG. 11 in the order of actual printing in units of four pages. Get the middle table. In this embodiment, as shown in the left table of FIG. 11, pages 1 and 4 are full color, and pages 2 and 3 are black and white. Therefore, as shown in the middle table, in the actual printing order, the color processing mode is full color. Black and white alternate. Subsequently, in step 1802, the right side table is obtained by re-determining the color processing mode of each page from the middle table in FIG. 11 based on FIG. 17 so as to minimize the print throughput.
[0082]
FIG. 17 describes the time required to execute each process.
[0083]
For example, it is assumed that the printing time for the first page takes 30 seconds for full color and 10 seconds for black and white due to initialization of the printer and data development. At this time, the printing time for continuous pages is 10 seconds per sheet in full color and 2.5 seconds in black and white. This is because a plurality of sheets can be attached to the transfer drum. In the full color mode, M (magenta), Y (yellow), C (cyan), K (black), and four colors are required, and the transfer drum needs to be rotated four times. Therefore, when switching the color processing mode, the waiting time for paper discharge can be switched after 2.5 seconds because it is black and white page discharge when switching from black and white mode to full color mode. When switching to, it is indicated that switching is possible after 10 seconds because full color page is discharged.
[0084]
In this embodiment, the color processing mode is actually switched based on the basic printing time data and the paper discharge waiting time associated with the color processing mode switching shown in FIG. Suppose that two or more pages continue. Therefore, as shown in the right table of FIG. 11, in this embodiment, all pages are printed in the full color mode.
[0085]
Such processing is not limited to double-sided printing, but is also performed during normal printing.
[0086]
In this way, printing data with multiple color processing modes is automatically determined by automatically determining the color processing mode so as to maximize the print throughput according to the time required for paper discharge waiting for switching the color processing mode. Time can be minimized.
[0087]
(Second embodiment)
In the second embodiment, a function of despooling a physical page that can be output while the spool file manager 2004 is spooling intermediate data to the spool file 2003 will be described.
[0088]
FIG. 22 is a flowchart showing details of control between the spool file 2003 generation process in the spool file manager 2004 and the print data generation process described below in the second embodiment. It is a thing.
[0089]
In step 2201, a print processing progress notification from the spooler 2002 or despooler 2005 is received.
[0090]
In step 2202, it is determined whether or not the progress notification is a print start notification from the spooler 2002 notified in step 504 in FIG. 5. If so, the process proceeds to step 2203, and the spool file corresponding to the job identifier is selected. Open, read the print processing settings from the spool file 2003, and start job management. On the other hand, if the print start notification is not received from the spooler 2002 at step 2202, the process proceeds to step 2204, and whether the progress notification is a print end notification of one logical page from the spooler 2002 notified at step 508 in FIG. judge. If it is a print end notification for one logical page, the process advances to step 2205 to store color processing mode information for this logical page.
[0091]
In the subsequent step 2206, it is determined whether printing of the nth physical page to be printed next can be started with respect to the n logical pages for which spooling has been completed at this time. If printing is possible, the process advances to step 2207, and the color processing mode for each logical page allocated to one physical page to be printed is referred to from a previously stored table to determine the color processing mode. In this embodiment, when there is a logical page having a full color attribute even in one page in the same physical page, the color processing mode of the physical page is set to full color.
[0092]
In step 2208, the despooler 2005 is notified of the logical page number constituting the physical page that can be printed and the color processing mode used when printing the physical page in the format shown in FIG. Is done.
[0093]
Thereafter, the process returns to step 2201 to wait for the next notification.
[0094]
In the present embodiment, print processing can be performed even if all the print jobs are not spooled when one page of print data, that is, a logical page constituting one physical page is spooled.
[0095]
On the other hand, if it is determined in step 2204 that the progress notification is not a print end notification of one logical page from the spooler 2002, the process advances to step 2209, and is the job end notification from the spooler 2002 notified in step 512 of FIG. Determine if. If it is a job end notification, the process proceeds to step 2206 described above.
[0096]
On the other hand, if it is not a job end notification, the process advances to step 2210 to determine whether the received notification is a print end notification for one physical page from the despooler 2005. If it is a print end notification for one physical page, the process advances to step 2211 to determine whether printing of all processing settings has been completed. When printing is completed, the process proceeds to step 2212 to notify the despooler 2005 of printing completion.
[0097]
On the other hand, if it is determined that the printing for the processing setting has not been completed, the process proceeds to 2206 described above. The despooler 2005 in this embodiment assumes that the number of physical pages that can be simultaneously printed is one.
[0098]
If it is determined in step 2210 that it is not a print end notification of one physical page from the despooler 2005, the process advances to step 2213 to determine whether it is a print end notification from the despooler 2005. If it is determined that the print end notification is received from the despooler 2005, the process advances to step 2214 to delete the spool file 2003 and finish the process.
[0099]
On the other hand, if the print end notification is not received from the despooler 2005, the process advances to step 2215 to perform other normal processing and wait for the next notification.
[0100]
FIG. 23 is a flowchart showing details of the print data generation process in the despooler 2005.
[0101]
In response to a print request from the spool file manager 2004, the despooler 2005 reads necessary information from the spool file 2003 and generates print data. The method for transferring the generated print data to the printer is as described with reference to FIG.
[0102]
In the generation of print data, first, in step 2301, a notification from the spool file manager 2004 described above is input. In the next step 2302, it is determined whether or not the input notification is a job end notification. If the input notification is a job end notification, the process proceeds to step 2303, the processing end notification of the despooler 2005 is notified to the spool file manager 2004, and the processing ends. .
[0103]
On the other hand, if it is not a job end notification in step 2302, the process proceeds to step 2304, and it is determined whether a print start request for one physical page in step 2208 is notified. If it is determined that the print start request is for one physical page, the process advances to step 2305 to generate print data for the designated physical page from the information shown in FIG. 24 and the spool file 2003 passed from the spool file manager 2004. Read the necessary information and print it. In the printing process, the print request command stored in the spool file 2003 is converted into a format recognizable by the graphic engine 1902 in the despooler 2005 and transferred. Processing settings for laying out a plurality of logical pages on one physical page are converted in this step while taking reduced arrangement into consideration.
[0104]
An example of determining the color processing mode in the physical page is shown in FIG. For example, if the processing setting is such that four logical pages are arranged on one physical page, the color processing mode of the first physical page is determined when the fourth logical page is spooled, and printing becomes possible.
[0105]
Subsequently, the second physical page can be printed when the eighth logical page is spooled. Further, even if the number of logical pages is not a multiple of the number of logical pages allocated to one physical page as shown in FIG. 10, the logical page to be allocated to one physical page can be determined by the spool end notification in step 512 of FIG. .
[0106]
When the necessary print processing is completed, in step 2306, the spool file manager 2004 is notified of the print data generation completion of one physical page. Then, the process returns to step 2301 and waits for the next notification.
[0107]
On the other hand, if it is not determined in step 2304 that the request is a start request, or if it is a notification for another job identifier, the process proceeds to step 2307 to perform other normal processing or error processing, and returns to step 2301 to wait for the next notification. .
[0108]
As described above, in the second embodiment, the color processing mode for each logical page from the spooler 2002 is stored in the spool file manager 2004, the color processing mode of the print data is determined in units of physical pages, and each physical address in the despooler 2005 is determined. By performing the printing process in the color processing mode specified on the page, the printer can change the color processing mode for each page, so that it is possible to reduce toner and increase the printing throughput.
[0109]
Furthermore, even if the intermediate data is being spooled, if the physical page data has been spooled and can be printed, the intermediate data of the printable physical page is despooled and converted to output data such as page description language by the printer driver. Therefore, it is possible to obtain an excellent effect that the first printing time can be shortened.
[0110]
As described above, according to the printer color processing mode automatic control method and apparatus of the present invention, unnecessary processing on the printer side is eliminated by controlling the color processing mode at the time of printing with the printer in units of pages. There is an effect of improving the printing throughput.
[0111]
In addition, according to another invention, even when n-page printing is designated, there is an effect that all logical pages can be printed in a color that seems to be optimal.
[0112]
In addition, according to another invention, even when double-sided printing is specified, it is possible to print the front page and the back page in colors that are considered to be optimal, and to improve the printing throughput. There is.
[0113]
In addition, according to another invention, there is an effect of preventing a decrease in print throughput due to frequent changes in the color processing mode and further improving the print throughput.
[0114]
According to another aspect of the invention, even if the intermediate data is being spooled, if the physical page data is spooled and can be printed, the intermediate data of the printable physical page is output and spooled and the page description is made by the printer driver. Since it is output after being converted into output data such as a language, an excellent effect of shortening the first print time can be obtained.
【The invention's effect】
As described above, the first invention of the present application is a graphic engine that is a drawing output destination of a print command generated when an application performs printing, and a printer that receives the print command from the graphic engine and generates print data Driver Print data output for printing with a printing device that has a duplex printing function and can form images of multiple pages on a transfer body In the information processing apparatus, intermediate data is generated based on the print command received via the graphic engine, and the generated intermediate data is temporarily stored. Printing processing in the printing device; Based on the generated intermediate data, print data Analyzing the color attributes of each page A color processing mode is determined, and based on the generated intermediate data, a print command including an instruction of the determined color processing mode of the print data is generated, and the generated print command is output to the graphic engine. When the print command received from the graphic engine is a drawing output from the application, the print command is passed to the intermediate data generation processing, and the print command received from the graphic engine is the drawing output from the print command generation processing. In some cases, the print command is passed to the printer driver, the sorted print command is received, and print data to be transmitted to the printer is generated from the print command using the printer driver. Further, the color processing mode determination process is formed on the transfer body of the printing apparatus by rearranging the color attribute of each analyzed page in the printing order when the printing process in the printing apparatus performs double-sided printing. When the color attributes of the images of the plurality of pages are different, the color processing mode of the plurality of pages is set to the color mode, and when the color attribute of the images of the plurality of pages is monochrome, the color processing mode of the plurality of pages is determined to be the monochrome mode. It is characterized by As a result, the color processing mode at the time of printing in the printing apparatus can be instructed from the information processing apparatus, the release of the printing process of the application is accelerated, and the print command generation process by the printer driver is received from the graphic engine. The same mechanism as before can be used Furthermore, it is possible to instruct a color processing mode with a high print throughput from the information processing apparatus in consideration of the processing order of double-sided printing in a printing apparatus capable of forming an image of a plurality of pages on a transfer body. An excellent effect is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a system according to an embodiment of the present invention.
FIG. 2 is an internal block diagram of an information processing apparatus and a printer.
FIG. 3 is a memory map diagram showing a state in which a printing-related module including a printer color processing mode automatic control program is loaded into a RAM 202 and becomes executable.
FIG. 4 is a flowchart showing an outline of a printer color processing mode automatic control program.
FIG. 5 is a flowchart showing detailed processing of an intermediate code generation, color attribute storage / page unit storage step in a printer color processing mode automatic control program;
FIG. 6 is a diagram showing an example of the contents of an intermediate code data temporary storage file generated by a printer color processing mode automatic control program
FIG. 7 is a flowchart showing detailed processing of print data generation and each page color processing mode designation step in the printer color processing mode automatic control program.
FIG. 8 is a diagram illustrating an example of color processing mode information for each page generated by a printer color processing mode automatic control program;
FIG. 9 is a diagram illustrating an example of a color processing mode designation command
FIG. 10 is a diagram illustrating an example of data indicating a color processing mode for each page generated on the RAM 202 in the present embodiment.
FIG. 11 is a diagram illustrating an example of data indicating a color processing mode for each page generated on the RAM 202 in the present embodiment.
FIG. 12 is a diagram showing an example when the color processing mode switching timing is different between single-sided printing and double-sided printing.
FIG. 13 is a flowchart showing the process flow of the printer color processing mode automatic control program for reduced printing.
FIG. 14 is a flowchart showing a process flow of a printer color processing mode automatic control program for reduced printing.
FIG. 15 is a flowchart showing the processing flow of a printer color processing mode automatic control program for reduced printing.
FIG. 16 is a diagram showing a state of conveying a sheet when duplex printing is performed.
FIG. 17 is a diagram showing a table that summarizes the printing time in each color processing mode of the printer and the discharge waiting time when the color processing mode is switched.
FIG. 18 is a flowchart showing the process flow of a printer color processing mode automatic control program for duplex printing.
FIG. 19 is a block diagram illustrating a configuration of a typical print system of a host computer to which a printer is connected.
FIG. 20 is a block diagram showing a configuration of a printing system that once spools a spool file before converting a print command from an application into a printer control command.
FIG. 21 is a diagram illustrating a printer.
FIG. 22 is a flowchart showing print control and color processing mode determination in the spool file manager.
FIG. 23 is a flowchart showing processing in the despooler.
FIG. 24 is a diagram showing an example of a data format passed when a spool file manager makes a physical page print request to the despooler.
[Explanation of symbols]
1 Information processing equipment
2 Printer
3 Centro I / F connection
201 CPU
202 RAM
203 HD drive
204 display
205 ROM
206 FD
207 FD drive
208 keyboard
209 Centro I / F (Host)
210 Centro I / F (Printer)
211 ROM
212 CPU
213 RAM
214 Coprocessor
215 Engine I / F
31 Memory map
32 applications
33 Free memory
34 Related data
35 Printing-related modules
36 OS
37 BIOS

Claims (16)

A graphic engine that is a drawing output destination of a print command generated when an application performs printing, a printer driver that receives the print command from the graphic engine and generates print data, has a double-sided printing function, An information processing apparatus that outputs print data to be printed by a printing apparatus capable of forming an image of a plurality of pages .
Intermediate data generating means for generating intermediate data based on a print command received via the graphic engine and temporarily storing the generated intermediate data;
A color processing mode determination unit that analyzes a color attribute of each page of the print data and determines a color processing mode based on the printing process in the printing apparatus and the intermediate data generated by the intermediate data generation unit;
Based on the intermediate data generated by the intermediate data generation means, a print command including an instruction of the color processing mode of the print data determined by the color processing mode determination means is generated and generated for the graphic engine. Print command generation means for outputting a print command;
When the print command received from the graphic engine is a drawing output from the application, the print command is passed to the intermediate data generation unit, and the print command received from the graphic engine is a drawing output from the print command generation unit. In some cases, print command distribution means for passing the print command to the printer driver;
Print data generation means for receiving print commands distributed by the print command distribution means and generating print data to be transmitted to the printer from the print instructions using the printer driver ;
The color processing mode determination means rearranges the analyzed color attributes of each page in the printing order when the printing process in the printing apparatus performs double-sided printing, and sets a plurality of pages formed on the transfer body of the printing apparatus. When the color attribute of the image is different, the color processing mode of the plurality of pages is set to a color mode, and when the color attribute of the image of the plurality of pages is monochrome, the color processing mode of the plurality of pages is determined to be a monochrome mode. Information processing apparatus. The color processing mode determination unit determines a color processing mode in units of physical pages of print data, and the print data generation unit determines print data specifying the color processing mode determined in the color processing mode in units of physical pages. The information processing apparatus according to claim 1, wherein the information processing apparatus is generated. A page compositing unit that reduces a print command of a plurality of pages generated by an application and lays it out on one page;
The color processing mode determining means determines a color processing mode in which a page synthesized by the page synthesizing means is correctly reproduced based on color information of each page laid out on a plurality of pages. The information processing apparatus according to claim 1. 2. The color processing mode determining means determines the color processing mode when intermediate data of the number of pages of print data in a minimum unit capable of switching the color processing mode in the printing apparatus is generated. The information processing apparatus according to any one of 1 to 3. If the color processing mode is determined in units of physical pages of the print data by the color processing mode determination unit, the print data generation unit may determine the print data determined before the color processing mode of all pages is determined. 5. The information processing apparatus according to claim 4, further comprising: generating a print command for designating a color processing mode of each image in physical page units, and starting transmission of the print data generated by the print data generation unit to the printing apparatus. . A graphic engine that is a drawing output destination of a print command generated when an application performs printing, a printer driver that receives the print command from the graphic engine and generates print data, has a double-sided printing function, A printing control method in an information processing apparatus for outputting print data to be printed by a printing apparatus capable of forming a plurality of pages of images ;
An intermediate data generating step for generating intermediate data based on a print command received via the graphic engine, and temporarily storing the generated intermediate data;
A color processing mode determination step of determining a color processing mode by analyzing a color attribute of each page of the print data based on the print processing in the printing apparatus and the intermediate data generated in the intermediate data generation step;
Based on the intermediate data generated by the intermediate data generation means, a print command including an instruction of the color processing mode of the print data determined in the color processing mode determination step is generated and generated for the graphic engine. A print command generation process for outputting a print command;
When the print command received from the graphic engine is a drawing output from the application, the print command is processed in the intermediate data generation step, and the print command received from the graphic engine is a drawing output from the print command generation step. A printing command distribution step for passing the printing command to the printer driver,
A print data generation step of receiving a print command distributed by the print command distribution step and generating print data to be transmitted to the printer from the print command using the printer driver ;
In the color processing mode determination step, when the printing process in the printing apparatus performs double-sided printing, the color attributes of the analyzed pages are rearranged in the printing order, and a plurality of pages formed on the transfer body of the printing apparatus are arranged. When the color attribute of the image is different, the color processing mode of the plurality of pages is set to a color mode, and when the color attribute of the image of the plurality of pages is monochrome, the color processing mode of the plurality of pages is determined to be a monochrome mode. Print control method. The color processing mode determination step determines a color processing mode in units of physical pages of print data, and the print data generation step determines print data specifying the color processing mode determined in the color processing mode in units of physical pages. The print control method according to claim 6 , wherein the print control method is generated. A page composition step of reducing a print command of a plurality of pages generated by the application and laying out the page on one page;
The color processing mode determination step determines a color processing mode in which a page combined by the page combining means is correctly reproduced based on color information of each page laid out on a plurality of pages. The printing control method according to claim 6 or 7 . 6. The color processing mode deciding step, characterized in that to determine the color processing mode when the intermediate data is generated for the number of pages of print data of the smallest switchable color processing mode unit in the printing device The printing control method according to any one of claims 1 to 8 . If the color processing mode is determined in units of physical pages of the print data in the color processing mode determination step, the print data generation step performs the determined print data before the color processing mode of all pages is determined. The print control according to claim 9 , further comprising: generating a print command that specifies a color processing mode of each of the physical pages, and starting transmission of the print data generated in the print data generation step to the printing apparatus. Method. A graphic engine that is a drawing output destination of a print command generated when an application performs printing, a printer driver that receives the print command from the graphic engine and generates print data, has a double-sided printing function, A storage medium storing a print control program executed by an information processing apparatus that outputs print data to be printed by a printing apparatus capable of forming an image of a plurality of pages .
Intermediate data generation program code for generating intermediate data based on a print command received via the graphic engine and temporarily storing the generated intermediate data;
A color processing mode determination program code for determining a color processing mode by analyzing a color attribute of each page of the print data based on the generated intermediate data in the printing process in the printing apparatus ;
Print command generation program code for generating a print command including an instruction of a color processing mode of the determined print data based on the generated intermediate data and outputting the generated print command to the graphic engine; ,
When the print command received from the graphic engine is a drawing output from the application, the print command is processed in the intermediate data generation step, and the print command received from the graphic engine is a drawing output from the print command generation step. A printing command distribution step for passing the printing command to the printer driver,
Print data generation program code that is the printer driver that receives the print command distributed by the print command distribution step and generates print data to be transmitted to the printer from the print command ;
In the color processing mode determination step, when the printing process in the printing apparatus performs double-sided printing, the color attributes of the analyzed pages are rearranged in the printing order, and a plurality of pages formed on the transfer body of the printing apparatus are arranged. When the color attribute of the image is different, the color processing mode of the plurality of pages is set to a color mode, and when the color attribute of the image of the plurality of pages is monochrome, the color processing mode of the plurality of pages is determined to be a monochrome mode. A storage medium storing a computer-readable print control program. The color processing mode determination program code determines a color processing mode in units of physical pages of print data, and the print data generation program code sets the color processing mode determined in the color processing mode in units of physical pages. The storage medium according to claim 11, wherein print data to be specified is generated. The print control program further includes page composition program code for reducing a print command of a plurality of pages generated by an application and laying it out on one page,
The color processing mode determination program code is for determining a color processing mode in which a page synthesized by the page synthesis program code is correctly reproduced based on color information of each page laid out on a plurality of pages. The storage medium according to claim 11 , wherein the storage medium is a storage medium. The color processing mode determination program code is for determining a color processing mode when intermediate data of the number of pages of print data in a minimum unit capable of switching the color processing mode in the printing apparatus is generated. The storage medium according to claim 11 . If the color processing mode is determined in units of physical pages of print data by the color processing mode determination program code, the print data generation program code is determined before the color processing mode of all pages is determined. A print command for designating a color processing mode of print data in units of physical pages is generated, and transmission of print data generated by the print data generation program code to the printing apparatus is started. Item 15. A storage medium according to Item 14 . A graphic engine that is a drawing output destination of a print command that is generated when an application performs printing, an information processing apparatus that includes a printer driver that receives the print command from the graphic engine and generates print data, and a duplex printing function A printing control system including a printing apparatus capable of forming an image of a plurality of pages on a transfer body ,
The information processing apparatus includes:
Intermediate data generating means for generating intermediate data based on a print command received via the graphic engine and temporarily storing the generated intermediate data;
A color processing mode determination unit that analyzes a color attribute of each page of the print data and determines a color processing mode based on the printing process in the printing apparatus and the intermediate data generated by the intermediate data generation unit;
Based on the intermediate data generated by the intermediate data generation means, a print command including an instruction of the color processing mode of the print data determined by the color processing mode determination means is generated and generated for the graphic engine. Print command generation means for outputting a print command;
When the print command received from the graphic engine is a drawing output from the application, the print command is passed to the intermediate data generation unit, and the print command received from the graphic engine is a drawing output from the print command generation unit. In some cases, print command distribution means for passing the print command to the printer driver;
Print data generation means for receiving print commands distributed by the print command distribution means and generating print data to be transmitted to the printer from the print instructions using the printer driver;
The printing apparatus includes:
Based on an instruction of a color processing mode included in the print data from the information processing apparatus , and having a print processing means for switching the color processing mode to print the print data ,
The color processing mode determination means of the information processing apparatus rearranges the color attributes of each analyzed page in the printing order when the printing process in the printing apparatus performs double-sided printing, and forms the color attributes on the transfer body of the printing apparatus. When the color attributes of the images of the plurality of pages are different, the color processing mode of the plurality of pages is set to the color mode, and when the color attribute of the images of the plurality of pages is monochrome, the color processing mode of the plurality of pages is determined to be the monochrome mode. A printing control system.

Images